Checking The Accuracy Of A Novel Atomic Microwave Power Standard
Appeared in: Microwave & RF, July 2005, P. 54
R&D roundup:
ATOMIC STANDARDS are usually
associated with frequency. But David Paulusse, Nelson Rowell and Alain
Michaud with the Institute for National Measurements Standards of the
National Research Council of Canada (Ottawa, Ontario, Canada) built an
atomic standard for microwave power, based on electromagnetic
interaction with laser-cooled atoms. Their experiments were based on
the use of laser-cooled rubidium atoms (a rubidium atomic clock
normally used as a frequency standard). The atoms were dropped through
a waveguide transmission line operating in fundamental mode. With this
approach, the microwave field distribution is very well known and the
transmitted power can be calculated using an analytical expression. The
waveguide transmission line was maintained under vacuum using two
reflection less windows and the transmitted power could be measured
simultaneously via the cold atoms and a power sensor. The
sensor/monitor was operated in CW mode and was fully compatible with
common waveguide standards. The atomic power standard was compared to a
power transfer standard operated in calibrated source mode (a 3-dB
directional coupler and NBS-IV type power meter). The microwave power
from a synthesized source was kept constant and the field
intensity time profile was set by the time of flight of the atoms
through the waveguide. The power level was varied and the number of
oscillations was varied each time to deduce the calibration factor. See
"Accuracy of an Atomic Microwave Power Standard" IEEE Transactions on Instrumentation and Measurement, April 2005, Vol 54, No. 2 p. 692. [on line]